This disclosure relates to a bait station and a methodology for using the same.
Bait stations are known in the art. In one example, bait stations are used to place rodenticides as the bait to control roof rats. Improvements to bait stations are continuously being sought in order to advance the arts.
One aspect of the disclosure provides a bait station. The bait station includes a first bait station subassembly including a housing having a body defining an axial passage and at least one radial passage in fluid communication with the axial passage, at least one panel-engaging member sized to be arranged within and slideably disposed about the at least one radial passage, and a lid member hingedly-connected to the housing, wherein the lid member defines a passage; a second bait station subassembly including a bait spike retainer defining an axial bait spike passage, and a bait spike sized to be movably-disposed within the bait spike passage and the passage of the lid member.
In one embodiment of the bait station, the housing may include a radially inwardly-extending lip portion, the inwardly-extending lip portion may define a distal opening that is axially-aligned with and is in fluid communication with the axial passage extending through the body, and the inwardly-extending lip portion may define at least one slot. In another embodiment, a distal end of the bait spike retainer may include at least one axial retainer finger that is sized to extend through the at least one slot of the inwardly-extending lip portion and to engage a distal surface of the inwardly-extending lip portion upon rotatably-connecting the bait spike retainer to the housing; and further, the at least one axial retainer finger may include an inner surface defining a projection sized to engage a corresponding projection extending from the distal surface of the inwardly-extending lip portion after rotatably-connecting the bait spike retainer to the housing.
In some instances of the inventive bait station, the at least one panel-engaging member may include: a first flange portion; a second flange portion; and a third flange portion, wherein the first flange portion and the second flange portion may be sized for engagement with the at least one radial passage formed by the body of the housing, and the third flange portion may be sized for engagement with an outwardly-extending lip portion that extends radially outwardly from an outer surface of the body of the housing. Further, the first flange portion may be sized to be retained adjacent an inner surface of the body of the housing.
In other instances of the inventive bait station, the second flange portion may include an inner surface defined by a row of ridges that is sized to be axially coupled to a corresponding row of ridges extending from the outer surface of the body upon slidably-connecting the at least one panel-engaging member within the at least one radial passage; the third flange portion may be defined by one or more barbs sized for being received by one or more female portions formed by a distal surface of the outwardly-extending lip portion upon slidably-connecting the at least one panel-engaging member within the at least one radial passage.
In an example of the bait station, the lid member may include a lid member thickness extending between an inner surface and an outer surface of the lid member, and the passage of the lid member may extend through the lid member thickness. Further, the bait spike may include a proximal end and a distal end, and the proximal end of the bait spike may be sized for arrangement within the passage the lid member.
In another example of the bait station, the bait spike may be arranged relative to the lid member in one of two states being: a baited state whereby the proximal end of the bait spike may be substantially aligned with the outer surface of the lid member and a proximal end of an intermediate stem portion of the bait spike may be arranged in a spaced-apart relationship with respect to the inner surface of the lid member; and a non-baited state whereby the proximal end of the bait spike may not be aligned with the outer surface of the lid member and the proximal end of the intermediate stem portion of the bait spike may be arranged adjacent to the inner surface of the lid member. In a further example, during the non-baited state, a proximal stem portion of the bait spike that forms the proximal end of the bait spike may extend beyond the outer surface of the lid member.
One embodiment of the invention is a portion of a bait station, including: a lid member including a lid member thickness extending between an inner surface and an outer surface of the lid member, wherein the lid member may define a passage extending through the lid member thickness; and a bait spike having a distal end and a proximal end, wherein the bait spike may be axially-aligned with the passage extending through the lid member thickness and movably-disposed with respect to the passage of the lid member in one of two states being a baited state and a non-baited state. In a further embodiment, the baited state may be defined by the proximal end of the bait spike not extending beyond the outer surface of the lid member; and the non-baited state may be defined by the proximal end of the bait spike extending beyond the outer surface of the lid member. And in another embodiment, the baited state may be further defined by a proximal end of an intermediate stem portion of the bait spike being arranged in a spaced-apart relationship with respect to the inner surface of the lid member; and the non-baited state may be further defined by the proximal end of the intermediate stem portion of the bait spike being arranged adjacent to the inner surface of the lid member.
Another embodiment of the invention is a bait spike assembly, including: a bait-retaining portion, wherein a proximal portion of the bait-retaining portion of the bait spike may form an attachment head and an attachment neck, wherein a shoulder surface joins the attachment head to the attachment neck; and a consumption-indicating portion including a proximal end and a distal end and defined by a stem body including at least a distal stem portion, wherein the distal stem portion may define an attachment bore, wherein the attachment head and the attachment neck may be sized to be disposed within the attachment bore for connecting the bait-retaining portion to the consumption-indicating portion. Further, the attachment bore may be defined by a passage portion, one or more flexible fingers, and a head-receiving pocket, wherein the one or more flexible fingers may be arranged between the passage portion and the head-receiving pocket. And in an additional embodiment, the attachment head may be disposed within the head-receiving pocket, and the one or more flexible fingers may be disposed adjacent the shoulder surface.
In one example, the stem body of the consumption-indicating portion may include: a first intermediate stem portion; a second intermediate stem portion extending from the first intermediate stem portion; and a proximal stem portion extending from the second intermediate stem portion, wherein the proximal stem portion may be connected to a button member. Further, the second intermediate stem portion of the consumption-indicating portion may be defined by a tool interface portion; the bait-retaining portion may be formed from a first material, wherein the consumption-indicating portion may be formed from a second material that is different from the first material; and the first material may be metal and the second material may be plastic. In an additional example, a distal portion of the bait-retaining portion of the bait spike may form bait-engaging surface portions including one or more of at least one protrusion and at least one recess.
One embodiment of the invention is a method, including connecting a first bait station subassembly to a panel by: inserting a housing at least partially through a panel passage formed by the panel, wherein the housing may include a body defining an axial passage and at least one radial passage in fluid communication with the axial passage; securing the housing to the panel by connecting at least one panel-engaging member to the housing by axially-inserting the at least one panel-engaging member into the axial passage in a first axial direction then radially-inserting the at least one panel-engaging member partially through the at least one radial passage in a radial direction and then axially-sliding the at least one panel-engaging member relative to the at least one radial passage in a second axial direction that is opposite the first axial direction; and connecting a second bait station subassembly to the first bait station subassembly by axially-inserting the second bait station subassembly into the axial passage of the first bait station subassembly, and rotating the second bait station subassembly relative to the first bait station subassembly.
In an additional example of the method, the axially-sliding the at least one panel-engaging member relative to the at least one radial passage in the second axial direction may result in sandwiching a thickness of the panel by arranging at least a portion of a proximal surface of the at least one panel-engaging member adjacent an upper B-surface side of the panel; and arranging at least a portion of a distal surface of an outwardly-extending lip portion that extends radially outwardly from an outer surface of the body of the housing adjacent a lower A-surface side of the panel. Further, prior to connecting the second bait station subassembly to the first bait station subassembly, the second bait station subassembly may be assembled by connecting a bait spike to a bait spike retainer by axially-inserting the bait spike into an axial bait spike passage of the bait spike retainer. In another example, prior to connecting the second bait station subassembly to the first bait station subassembly, a bait may be connected to a distal end of the bait spike after connecting the bait spike to the bait spike retainer; and the bait may be a rodenticide.
In other aspects of the inventive method: after connecting the second bait station subassembly to the first bait station subassembly, a lid member connected to the housing may be hingedly-rotated from an open orientation to a closed orientation, wherein the lid member may define a lid member thickness and a lid member passage extending through the lid member thickness, wherein after hingedly-rotating the lid member, the lid member passage may be axially-aligned with and receive a proximal end of the bait spike. In a further aspect, prior to rotating the second bait station subassembly relative to the first bait station subassembly, one or more axial retainer fingers extending from the bait spike retainer may be axially-inserted through one or more slots formed by an inwardly-extending lip portion of the body of the housing. And in another aspect, rotating the second bait station subassembly relative to the first bait station subassembly may include spatially displacing the one or more axial retainer fingers relative the one or more slots for disposing an inner surface of the one or more axial retainer fingers adjacent a distal surface of the inwardly-extending lip portion.
The details of one or more implementations of the disclosure are set forth in the accompanying drawings and the description below. Other aspects, features, and advantages will be apparent from the description and drawings, and from the claims.
FIG. 1A is a perspective view of an exemplary bait station.
FIG. 1B is a first side view of the bait station of FIG. 1A.
FIG. 1C is a second side view of the bait station of FIG. 1A.
FIG. 1D is a front view of the bait station of FIG. 1A.
FIG. 1E is a rear view of the bait station of FIG. 1A.
FIG. 1F is a top view of the bait station of FIG. 1A.
FIG. 1G is a bottom view of the bait station of FIG. 1A.
FIG. 2A is an exploded perspective view of the bait station of FIGS. 1A-1G.
FIG. 2B is a partially assembled perspective view of the bait station of FIG. 2A.
FIG. 2C is a further partially assembled perspective view of the bait station of FIG. 2B.
FIG. 2D is a further partially assembled perspective view of the bait station of FIG. 2C.
FIG. 2E is a further partially assembled perspective view of the bait station of FIG. 2D.
FIG. 2F is a further partially assembled perspective view of the bait station of FIG. 2E.
FIG. 2G is a further partially assembled perspective view of the bait station of FIG. 2F.
FIG. 3A is an assembled perspective view of the bait station of FIG. 2G loaded with bait being consumed by a rodent.
FIG. 3B another perspective view of the bait station of FIG. 3A after the bait is consumed by the rodent.
FIG. 4 is a perspective view of a housing of the bait station of FIGS. 1A-1G.
FIG. 5A is a lower perspective view of a panel-engaging member of the bait station of FIGS. 1A-1G.
FIG. 5B is an upper perspective view of a panel-engaging member of the bait station of FIGS. 1A-1G.
FIG. 6A is a cross-sectional view of the housing and the panel-engaging member of FIGS. 4-5B according to line 6A-6A of FIG. 2B.
FIG. 6B is a cross-sectional view of the housing and the panel-engaging member of FIGS. 4-5B according to line 6B-6B of FIG. 2C.
FIG. 6C is a cross-sectional view of the housing and the panel-engaging member of FIGS. 4-5B according to line 6C-6C of FIG. 2D.
FIG. 7 is an enlarged perspective view of the housing and the panel-engaging member after arranging the panel-engaging member relative to the housing as seen in FIG. 6C
FIG. 8A is an exploded perspective view of a bait spike of the bait station of FIGS. 1A-1G.
FIG. 8B is an assembled perspective view of the bait spike of FIG. 8A
FIG. 9A is a cross-sectional view of the bait spike according to line 9A-9A of FIG. 8A.
FIG. 9B is a cross-sectional view of the bait spike according FIG. 9A arranged in a partially assembled state.
FIG. 9C is a cross-sectional view of the bait spike according to line 9C-9C of FIG. 8B.
FIG. 10A is a cross-sectional view of the bait station according to line 10A-10A of FIG. 2G.
FIG. 10B is a cross-sectional view of the bait station according to line 10B-10B of FIG. 3B.
FIG. 10A′ is an enlarged view according to line 10A′ of FIG. 10A.
FIG. 10A″ is an enlarged view according to line 10A″ of FIG. 10A.
FIG. 11A is a portion of an upper perspective view of the bait station according to arrow 11A of FIG. 2E.
FIG. 11B is a portion of an upper perspective view of the bait station according to arrow 11B of FIG. 2F.
FIG. 12A is a lower perspective view of the bait station according to arrow 12A of FIG. 2G or FIG. 3A.
FIG. 12B is a lower perspective view of the bait station according to arrow 12B of FIG. 3B.
FIG. 12C is a lower perspective view of the bait station according to FIG. 12B prior to being serviced by a user.
FIG. 12D is a lower perspective view of the bait station according to FIG. 12C being serviced by the user.
FIG. 12E is a lower perspective view of the bait station according to FIG. 12D being serviced by the user showing the bait spike removed from the housing.
FIG. 13A is a lower perspective view of the bait station according to arrow 13 of FIG. 12E.
FIGS. 13B-13C are lower perspective views of the bait station of FIG. 13A receiving a tool.
FIG. 14A is a cross-sectional view of the bait station according to line 14A-14A of FIG. 13B with the tool partially arranged within the housing of the bait station.
FIG. 14B is a cross-sectional view of the bait station according to FIG. 14A with the tool further partially arranged within the housing of the bait station.
FIG. 14C is a cross-sectional view of the bait station according to FIG. 14B with the tool arranged within the housing of the bait station.
FIG. 15 is a cross-sectional view of the bait station according to FIG. 14C with the tool arranged within the housing of the bait station in another orientation.
Like reference symbols in the various drawings indicate like elements.
Referring to FIGS. 1A-1G, a bait station is shown generally at 10. As seen in FIG. 2A and with corresponding reference to FIGS. 1A-1G, a plurality of components 12, 14, 16, 18, 20 form the bait station 10. Furthermore, as seen in FIGS. 2A-2C, more than one component (see, e.g., components 12, 14, 16) of the plurality of components 12, 14, 16, 18, 20 form a first bait station subassembly 22 and more than one component (see, e.g., components 18, 20) of the plurality of components 12, 14, 16, 18, 20 form a second bait station subassembly 24. As seen in FIGS. 2D-2G, the second bait station subassembly 24 is sized for being removably-secured to the first bait station subassembly 22.
As seen in FIGS. 2B-2G, the first bait station subassembly 22 may be secured to a panel P. In some implementations, the panel P may be an overhead ceiling panel that defines a room of a building. In other examples, the panel P may be: (1) a vertical sidewall panel that defines a room of a building, (2) a flooring panel that defines a room of a building (3) a portion of ductwork (that is, for example, positioned: overhead within a ceiling, within flooring or within a vertical sidewall) or the like. If, for example, the panel P is an overhead ceiling panel, the panel P may be formed from a drop ceiling panel that may be removably-secured to a drop ceiling grid support structure (not shown). In other examples, the panel P may be formed from a portion of a sheet of drywall, a plaster wall, a cinderblock wall, a sheet of plywood, plastic or metal (e.g., that is utilized for forming ductwork) or the like.
With continued reference to FIGS. 2B-2G, the second bait station subassembly 24 may retain bait B (e.g., a rodenticide, poison, pesticide or the like). As seen in FIGS. 3A-3B, the bait B may be consumed by a rodent R, pest or the like (e.g., mice or rats). In one example, the bait B is a formed from a solid material, e.g., a wax or formed block. For example, the bait B may be formed from a solid material and may include attractants, rodenticide (poison), feed, and wax.
When the second bait station subassembly 24 is removably-secured to the first bait station subassembly 22, the second bait station subassembly 24 may be accessible by a user (see, e.g., U in FIGS. 12A-12D) from an “A-surface” side P1 of the panel P such that the second bait station subassembly 24 may be loaded or reloaded with bait B. As seen in FIGS. 3A-3B, the bait B is located about an opposite, “B-surface” side P2 of the panel P. As will be described in the following disclosure at FIGS. 12A-12B, in addition to retaining bait B, a portion (see, e.g., component 18) of the second bait station subassembly 24 also provides an added function of a bait consumption indictor whereby, for example, the portion (see, e.g., component 18) of the second bait station subassembly 24 moves (see, e.g., arrow X18′) relative another component (see, e.g., component 20) of the second bait station subassembly 24. In some instances, if the bait station 10 is installed in an overhead orientation (i.e., if the panel P defines a ceiling panel or overhead ductwork), the component 18 may fall or drop downwardly X18′ with the assistance of gravity from an “up orientation” (see, e.g., FIGS. 3A, 10A, 12A) to a “down orientation” (seem e.g. FIGS. 3B, 10B, 12B) in order to provide a visible indication to the user U (who is located opposite the A-surface P1 of the panel P as seen in, for example, FIGS. 12A-12D) that the bait B (that is located opposite the B-surface P2 of the panel P as seen in, for example, FIGS. 3A, 10A, 12A) has been depleted (as seen in, for example, FIGS. 3B, 10B, 12B). As a result, the bait station 10 favorably obviates the need for the user U to otherwise manually inspect the state of consumption of the bait B that is secured to the second bait station subassembly 24.
Referring to FIG. 2A, first bait station subassembly 22 includes a housing 12, at least one panel-engaging member 14 and a lid member 16. As also seen in FIGS. 1A-1F and FIGS. 2A-2G, the at least one panel-engaging member 14 includes a pair of panel-engaging member 14 defined by a first panel-engaging member 14a and a second panel-engaging member 14b. In the following disclosure, reference to “a”, “the” or “at least one” “panel engaging member 14” may be applied to either one or both of the first panel-engaging member 14a and the second panel-engaging member 14b as the first panel-engaging member 14a and the second panel-engaging member 14b are similar components of the bait station 10.
As seen in FIGS. 2B-2D and as will be described in the following disclosure at FIGS. 6A-6C, the at least one panel-engaging member 14 may be slidably-connected to the housing 12 for axial movement according to the direction of arrow X14′ (see, e.g., FIGS. 2C and 6B). The lid member 16 may be hingedly-connected to the housing 12 for rotation according to the direction of arrow R16 (see, e.g., FIG. 2F).
With reference to FIG. 4, the housing 12 includes a substantially cylindrical body 26 defined by an inner surface 26I and an outer surface 26O. The substantially cylindrical body 26 is further defined by a thickness T26 (see, e.g., FIGS. 6A-6C) extending between the inner surface 26I and the outer surface 26O. Furthermore, the inner surface 26I of the substantially cylindrical body 26 defines an axial passage 28 extending through the substantially cylindrical body 26 from a proximal end 26P of the substantially cylindrical body 26 to a distal end 26D of the substantially cylindrical body 26.
As seen in FIG. 4, the housing 12 further includes an outwardly-extending lip portion 30 extending from the outer surface 26O of the substantially cylindrical body 26 and an inwardly-extending lip portion 32 extending from the inner surface 26I of the substantially cylindrical body 26. The outwardly-extending lip portion 30 is arranged near the proximal end 26P of the substantially cylindrical body 26. The inwardly-extending lip portion 32 is arranged near the distal end 26D of the substantially cylindrical body 26.
With continued reference to FIG. 4, at least one radial passage 34 radially extends through the thickness T26 of the substantially cylindrical body 26. The at least one radial passage 34 is in fluid communication with the axial passage 28. As seen in FIGS. 2B-2C and 6A-6C, the at least one radial passage 34 is sized for receiving the at least one panel-engaging member 14.
Like the at least one panel-engaging member 14, the at least one radial passage 34 includes a pair of radial passages defined by a first radial passage 34a and a second radial passage 34b. In the following disclosure, reference to “a”, “the” or “at least one” “radial passage 34” may be applied to either one or both of the first radial passage 34a and the second radial passage 34b as the first radial passage 34a and the second radial passage 34b are similar. Furthermore, as seen in FIGS. 1A-2G, the first panel-engaging member 14a is associated with and disposed within the first radial passage 34a and the second panel-engaging member 14b is associated with and disposed within the second radial passage 34b.
As seen in FIG. 4, the inwardly-extending lip portion 32 defines a distal opening 36 that is axially-aligned with and is in fluid communication with the axial passage 28. As seen in FIGS. 2D-2E, the distal opening 36 is sized for permitting a portion of the second bait station subassembly 24 to extend out of the axial passage 28 and beyond the distal end 26D of the substantially cylindrical body 26.
As seen in FIGS. 10A-10B and will be described in the following disclosure, the proximal end 26P of the substantially cylindrical body 26 defines a proximal opening 100 that is axially-aligned with and is in fluid communication with the axial passage 28. Although the proximal opening 100 is not seen in FIGS. 2D-2E, the proximal opening 100 is sized for permitting insertion (according to the direction of arrow X24 as seen in FIG. 2D) of the second bait station subassembly 24 into the axial passage 28 of the housing 12 whereby a portion of the second bait station subassembly 24 does not extend beyond the distal end 26D of the substantially cylindrical body 26 by way of the distal opening 36 (as seen in FIG. 2E whereby this portion of the second bait station subassembly 24 is contained within the axial passage 28 of the housing 12 after being axially inserted X24 through proximal opening 100).
With reference to FIG. 4, the outer surface 26O of the substantially cylindrical body 26 is further defined by at least one row of ridges 40 that is axially aligned with the at least one radial passage 34. The at least one row of ridges 40 includes a plurality of ridges 401-40n defined by a distal ridge 401, a proximal ridge 40n and a plurality of intermediate ridges 402-40n-1. Each ridge of the plurality of ridges 401-40n may be defined by a body having a substantially triangular cross-section having a ramp surface and a latching surface. In some instances, as seen, for example at FIGS. 6A-6C, the at least one row of ridges 40 contributes to as a one-way fastening feature of the bait station 10 whereby the at least one panel-engaging member 14 is not permitted to be moved in a direction opposite the arrow X14′ after the at least one panel-engaging member 14 is moved from the distal end 26D of the substantially cylindrical body 26 of the housing 12 toward the proximal end 26P of the substantially cylindrical body 26 of the housing 12 for securing the housing 12 to the panel P.
With continued reference to FIG. 4, the outwardly-extending lip portion 30 is further defined by a distal surface 30D, a proximal surface 30P and a side surface 30S connecting the distal surface 30D to the proximal surface 30P. As seen in FIG. 4, one or more of the distal surface 30D, the proximal surface 30P and the side surface 30S defines one or more passages, slots, grooves, recesses, channels or projections 42-50 that provide a variety of associated functions.
In an example, the distal surface 30D and the side surface 30S of the outwardly-extending lip portion 30 forms one or more male portions (see, e.g., 42M), one or more female portions (see, e.g., 42F) or male-and-female portions 42 that is/are sized for receiving (as seen in FIG. 6C) one or more portions of the at least one panel-engaging member 14 in response to the at least one panel-engaging member 14 being moved X14′ from the distal end 26D of the substantially cylindrical body 26 of the housing 12 toward the proximal end 26P of the substantially cylindrical body 26 of the housing 12. In another example, the distal surface 30D, the proximal surface 30P and the side surface 30S may also form a hinge groove 44 (see, e.g., FIG. 2A) and a snap-fit channel 46 that are respectively sized for receiving a hinge 16H (see, e.g., FIG. 2A) of the lid member 16 and a snap-fit flange 16F (see, e.g., FIG. 2A) of the lid member 16 in order to permit the lid member 16 to be hingedly-connected R16 (see, e.g., FIG. 2F) to the housing 12 and selectively-retained to the housing 12 in a closed orientation (as seen in, e.g., FIG. 2G). In yet another example as seen in FIG. 4, the distal surface 30D and the proximal surface 30P may respectively define one or more openings 48 providing access to one or more optional axial passages 50 that is/are sized for receiving a screw or bolt (not shown) for securing the housing 12 to the panel P.
With continued reference to FIG. 4, the inwardly-extending lip portion 32 is further defined by a distal surface 32D, a proximal surface 32P and a side surface 32S connecting the distal surface 32D to the proximal surface 32P. As seen in FIG. 4, one or more of the distal surface 32D, the proximal surface 32P and the side surface 32S defines one or more passages, slots, grooves, recesses, channels or projections 52-54 that provide a variety of associated functions.
In an example, the distal surface 32D, the proximal surface 32P and the side surface 32S of the inwardly-extending lip portion 32 forms one or more slots 52 that are sized for receiving one or more portions of the second bait station subassembly 24 in response to the second bait station subassembly 24 being moved X24 (see, e.g., FIG. 2D) from the proximal end 26P of the substantially cylindrical body 26 of the housing 12 toward the distal end 26D of the substantially cylindrical body 26 of the housing 12. In another example, the distal surface 32D defines at least one projection 54 located proximate the one or more slots 52 for selectively-retaining the one or more portions of the second bait station subassembly 24 passed through the one or more slots 52 in response to rotating R24 (see, e.g., FIG. 2E) the second bait station subassembly 24 relative to the housing 12.
With reference to FIGS. 5A-5B, the at least one panel-engaging member 14 includes a base portion 56 and a plurality of flange portions 58 extending away from the base portion 56. In an example, the plurality of flange portions 58 includes a first flange portion 58a, a second flange portion 58b and a third flange portion 58c that are sized for being interfaced with the housing 12.
In an example, the first flange portion 58a and the second flange portion 58b are sized for engagement with the substantially cylindrical body 26 of the housing 12 relative to the at least one radial passage 34 formed by the substantially cylindrical body 26 of the housing 12. In another example, the third flange portion 58c is sized for engagement with the outwardly-extending lip portion 30 extending from the outer surface 26O of the substantially cylindrical body 26 of the housing 12.
In an example as seen in FIGS. 6A-6B, the at least one panel-engaging member 14 is connected to the substantially cylindrical body 26 of the housing by initially arranging the at least one panel-engaging member 14 within the passage 28 of the substantially cylindrical body 26 of the housing 12 and then radially passing (see, e.g., arrow Z14 in FIG. 6A) the at least one panel-engaging member 14 through the at least one radial passage 34 formed by the substantially cylindrical body 26 of the housing 12. As seen in FIGS. 6B-6C, the second flange portion 58b and the third flange portion 58c are sized for being inserted through the at least one radial passage 34 formed by the substantially cylindrical body 26 of the housing 12 such that the second flange portion 58b and the third flange portion 58c are disposed outside of the axial passage 28 extending through the substantially cylindrical body 26 of the housing 12 while the first flange portion 58a remains within the passage 28 of the substantially cylindrical body 26 of the housing 12.
With reference to FIGS. 6A-6C, the first flange portion 58a may be defined by an inner surface 58aI and an outer surface 58aO. After arranging the second flange portion 58b and the third flange portion 58c outside of the axial passage 28 and sliding X14′ the at least one panel-engaging member 14 relative to the housing 12 from the distal end 26D of the substantially cylindrical body 26 of the housing 12 toward the proximal end 26P of the substantially cylindrical body 26 of the housing 12, the outer surface 58aO of the first flange portion 58a may be disposed adjacent or opposite the inner surface 26I of the substantially cylindrical body 26 of the housing 12 for radially-retaining the at least one panel-engaging member 14 to the housing 12.
As seen in FIGS. 6A-6C, the second flange portion 58b is sized for being disposed adjacent the outer surface 26O of the substantially cylindrical body 26 of the housing 12. The second flange portion 58b may be defined by an inner surface 58bI and an outer surface 58bO.
As seen in FIGS. 5A-5B, the inner surface 58bI of the second flange portion 58b is defined by a row of ridges 60. The row of ridges 60 includes a plurality of ridges 601-60n defined by a distal ridge 601, a proximal ridge 60n and a plurality of intermediate ridges 602-60n-1. Each ridge of the plurality of ridges 601-60n may be defined by a body having a substantially triangular cross-section having a ramp surface and a latching surface.
As seen in FIGS. 6B-6C, when the at least one panel-engaging member 14 is slid X14′ relative to the housing 12 from the distal end 26D of the substantially cylindrical body 26 of the housing 12 toward the proximal end 26P of the substantially cylindrical body 26 of the housing 12, the row of ridges 60 formed by the inner surface 58I of the second flange portion 58b is progressively-interfaced with the row of ridges 40 formed by the outer surface 26O of the substantially cylindrical body 26 of the housing 12 for one-way-fastening the at least one panel-engaging member 14 to the housing 12 for radially-retaining the at least one panel-engaging member 14 to the housing 12.
As seen in FIGS. 6C and 7, the third flange portion 58c is sized for being disposed adjacent and/or received by the one or more male portion 42M, the one or more female portion 42F or the male-and-female portion 42 formed by distal surface 30D and side surface 30S of the outwardly-extending lip portion 30 extending from the outer surface 26O of the substantially cylindrical body 26 of the housing 12. The third flange portion 58c may be defined by a distal surface 58cD and a proximal surface 58cP. The distal surface 58cD of the third flange portion 58c is defined by one or more barbs 62 that is/are sized for being received by the one or more female portions 42F formed by the formed by distal surface 30D and the side surface 30S of the outwardly-extending lip portion 30 extending from the housing 12 when the at least one panel-engaging member 14 is slid X14′ relative to the housing 12 from the distal end 26D of the substantially cylindrical body 26 of the housing 12 toward the proximal end 26P of the substantially cylindrical body 26 of the housing 12. The third flange portion 58c may also define a passage 64 that is accessible by way of a distal opening 66 formed by the distal surface 58cD of the third flange portion 58c. The distal opening 66 and passage 64 may be sized for receiving the one or more male portions 42M formed by the formed by distal surface 30D of the outwardly-extending lip portion 30 extending from the housing 12 when the at least one panel-engaging member 14 is slid X14′ relative to the housing 12 from the distal end 26D of the substantially cylindrical body 26 of the housing 12 toward the proximal end 26P of the substantially cylindrical body 26 of the housing 12.
With reference to FIG. 2B, prior to slidably-joining the at least one panel-engaging member 14 to the housing 12 as described above, the housing 12 is firstly axially-inserting through a passage PP formed by the panel P according to the direction of the arrow X12. Then, as seen in FIGS. 2A and 6A, while the user U urges the distal surface 30D of the outwardly-extending lip portion 30 of the housing 12 toward the “A-surface” side P1 of the panel P, with one hand, the user locates the at least one panel-engaging member 14 within the axial passage 28 of the housing 12 and inserts the second flange portion 58b and the third flange portion 58c through the at least one radial passage 34 from the inner surface 26I of the substantially cylindrical body 26 toward the outer surface 26O of the substantially cylindrical body 26 according to the direction of arrow Z14 (see, e.g., FIG. 6A). Thereafter, as discussed above and as seen in FIGS. 2C-2D, the at least one panel-engaging member 14 may be slid downwardly according to the direction of arrow X14′ for attaching the at least one panel-engaging member 14 to the housing 12.
As seen in FIGS. 6C and 7, in response to sliding X14′ the at least one panel-engaging member 14 relative to the housing 12 as described above, the one or more male portion 42M of the outwardly-extending lip portion 30 and the one or more barbs 62 of the third flange portion 58c may engage, sandwich or bite-into the panel P for axially securing the housing 12 to the panel P as seen in FIG. 2D. More particularly, as seen in FIG. 7, the one or more barbs 62 may engage or bite-into the “B-surface” side P2 of the panel P as the male portion 42M of the outwardly-extending lip portion 30 may engage or bite-into the “A-surface” side P1 of the panel P. In an example, when the male portion 42M of the outwardly-extending lip portion 30 engages or bites-into the “A-surface” side P1 of the panel P, the portion 42M of the outwardly-extending lip portion 30 may urge a portion of the panel P into the proximal opening 66 formed by the distal surface 58cD of the third flange portion 58c and into the passage of the third flange portion 58c.
As seen in FIG. 7, the male portion 42M of the outwardly-extending lip portion 30 may be located between a pair of barbs 62 of the third flange portion 58c of the at least one panel-engaging member 14. Furthermore, as seen in FIG. 7, the distal surface 30D of the outwardly-extending lip portion 30 extending from the housing 12 may be disposed adjacent the “A-surface” side P1 of the panel P. As a result of the structure associated with at least one panel-engaging member 14 and the outwardly-extending lip portion 30 (described above) “sandwiching” or biting-into the panel P, an “anti-rotation” feature of the bait station 10 is provided whereby the rotation of the housing 12 relative to the panel P is mitigated or prevented.
Referring to FIGS. 1A-1G and 2A, the second bait station subassembly 24 includes a bait spike 18 and a bait spike retainer 20. With reference to FIG. 2A, the bait spike retainer 20 includes an inner surface 68 defining a passage 70 that is sized for receiving the bait spike 18 according to the direction of arrow X18 from a proximal end 20P of the bait spike retainer 20 to a distal end 20D of the bait spike retainer 20.
Referring to FIG. 2B, after the bait spike 18 is disposed within the passage 70 formed by the bait spike retainer 20, the bait spike 18 is arranged in an axially free-floating relationship with respect to the bait spike retainer 20 along an axis A70-A70 extending through the passage 70 formed by the bait spike retainer 20. As will be described in the following disclosure (and with reference to FIGS. 2B-2C), the bait spike 18 may be axially fixed in place relative to the bait spike retainer 20 after joining bait B to the bait spike 18. Furthermore, as will also be described in the following disclosure (and with reference to FIGS. 3A-3B, 10A-10B and 12A-12B), after the bait B has been removed from the bait spike 18 (e.g., as a result of consumption or removal of bait B by a rodent R), the lid member 16 (when arranged in a closed orientation with respect to the housing 12) may prevent (as seen in FIGS. 10B and 12B) the bait spike 18 from being further advanced out of the passage 70 of the bait spike retainer 20 in a direction according to arrow X18′ (see, e.g., FIG. 12B).
Referring to FIGS. 8A-8B and 9A-9C, the bait spike 18 may be formed from an assembly including a bait-retaining portion 18a and a consumption-indicating portion 18b. As seen in FIGS. 9A-9C, a proximal end 18aP of the bait-retaining portion 18a may be non-removably-coupled to a distal end 18bD of the consumption-indicating portion 18b.
In an example, the bait-retaining portion 18a may be formed from a first material (e.g., metal) and the consumption-indicating portion 18b may be formed from a second material (e.g., plastic) that is different from the first material. Because at least some of the bait-retaining portion 18a may be accessed by a rodent R (as seen in, e.g., FIGS. 3A-3B), if, for example, the first material defining the bait-retaining portion 18a is a metallic material, the metallic material is less likely to be chewed, damaged or consumed by the rodent R, thereby potentially prolonging the life of the bait spike 18. Furthermore, use of a plastic material (rather than a metallic material) for the consumption-indicating portion 18b not only reduces the weight of the bait spike 18 in order to lessen an overall load imparted by the bait station 10 to the panel P but also reduces cost of the bait spike 18 due to the fact that plastic materials are typically cheaper than metallic materials.
Although the bait spike 18 is shown and described at FIGS. 8A-8B and 9A-9C to be a two-piece component defined by an assembly, the bait spike 18 may be formed as one-piece component derived from one material. Therefore, the bait spike 18 may be formed from, for example, a metallic material, alone, or a plastic material, alone.
Referring to FIG. 8A, a first portion L18a-1 of a length L18a of the bait-retaining portion 18a of the bait spike 18 extending from a distal end 18aD of the bait-retaining portion 18a toward the proximal end 18aP of the bait-retaining portion 18a may be formed to define one or more protrusions 72, recesses 74 and the like in order to frictionally-retain bait B to the bait-retaining portion 18a of the bait spike 18, which may, among other functions, prevent the bait B from rotating about the bait-retaining portion 18a of the bait spike 18. A second portion L18a-2 of the length L18a of the bait-retaining portion 18a of the bait spike 18 extending from the proximal end 18aP of the bait-retaining portion 18a toward the distal end 18aD of the bait-retaining portion 18a may be formed to define an attachment head 76 and an attachment neck 78 that may be interfaced with the distal end 18bD of the consumption-indicating portion 18b. A shoulder surface 80 may join the attachment head 76 to the attachment neck 78.
With reference to FIG. 8A, the consumption-indicating portion 18b is defined by a stem body 82 including: a first stem portion 82a extending along a first portion L18b-1 of a length L18b of the consumption-indicating portion 18b, a second stem portion 82b extending along a second portion L18b-2 of the length L18b of the consumption-indicating portion 18b, a third stem portion 82c extending along a third portion L18b-3 of the length L18b of the consumption-indicating portion 18b and a fourth stem portion 82d extending along a fourth portion L18b-4 of the length L18b of the consumption-indicating portion 18b. The first stem portion 82a extends from the distal end 18bD of the consumption-indicating portion 18b toward a proximal end 18bP of the consumption-indicating portion 18b. The fourth stem portion 82d extends from the proximal end 18bP of the consumption-indicating portion 18b toward the distal end 18bD of the consumption-indicating portion 18b. The second stem portion 82b extends from the first stem portion 82a. The third stem portion 82c extends from the fourth stem portion 82d. The second stem portion 82b is connected to the third stem portion 82c.
With reference to FIGS. 8A and 9A, the first stem portion 82a defines an attachment bore 84. Access to the attachment bore 84 is permitted by an opening 86 formed by the distal end 18bD of the consumption-indicating portion 18b.
As seen in FIG. 9A, the attachment bore 84 is defined by an inner surface 88. A first portion 881 of the inner surface 88 defines a passage portion 84a of the attachment bore 84 extending from the distal end 18bD of the consumption-indicating portion 18b. A second portion 882 of the inner surface 88 defines a one or more flexible fingers 84b extending radially into the attachment bore 84. A third portion 883 of the inner surface 88 defines a head-receiving pocket 84c of the attachment bore 84. The one or more flexible fingers 84b is/are arranged between the passage portion 84a and the head-receiving pocket 84c.
With continued reference to FIG. 9A, the attachment head 76 of the bait-retaining portion 18a is defined by an outer surface 90. The outer surface 90 defines the attachment head 76 of the bait-retaining portion 18a to have a diameter D76. Furthermore, the attachment neck 78 of the bait-retaining portion 18a is defined by an outer surface 92. The outer surface 92 defines the attachment neck 78 of the bait-retaining portion 18a to have a diameter D78. The diameter D78 of the attachment neck 78 is less than the diameter D76 of the attachment head 76.
With continued reference to FIG. 9A, the attachment bore 84 is defined by a first bore diameter D84-1 and a second bore diameter D84-2. The first bore diameter D84-1 of the attachment bore 84 generally defines a diameter of the passage portion 84a and a diameter of the head-receiving pocket 84c. The second bore diameter D84-2 of the attachment bore 84 generally defines a spacing diameter between a pair of opposing flexible fingers 84b defined by the second portion 882 of the inner surface 88.
The diameter D76 of the attachment head 76 is about the same as but slightly less than the first bore diameter D84-1 of the attachment bore 84, and the diameter D76 of the attachment head 76 is greater than the second bore diameter D84-2 of the attachment bore 84. The diameter D78 of the attachment neck 78 is about the same as but slightly less than the second bore diameter D84-2 of the attachment bore 84.
As seen in FIG. 9B, upon passing the attachment head 76 of the bait-retaining portion 18a through the opening 86 formed by the distal end 18bD of the consumption-indicating portion 18b, the attachment head 76 is passed through the passage portion 84a for subsequent engagement with the pair of opposing flexible fingers 84b. Upon engaging the attachment head 76 with the pair of opposing flexible fingers 84b, the attachment head 76 flexes the pair of opposing flexible fingers 84b in a radially-outwardly direction according to arrow R84b. As seen in FIG. 9C, after the attachment head 76 passes the pair of opposing flexible fingers 84b, the pair of opposing flexible fingers 84b flexes radially inwardly according to arrow R84b′ back to an at-rest state whereby the pair of opposing flexible fingers 84b may be disposed adjacent at least the shoulder surface 80 and optionally the outer surface 92 of the attachment neck 78 for axially securing the bait-retaining portion 18a to the consumption-indicating portion 18b. Referring to FIG. 8B, once the bait-retaining portion 18a is attached to the consumption-indicating portion 18b as described above at FIGS. 9A-9C, the bait spike 18 may be defined by a length L18 extending between the distal end 18aD of the bait-retaining portion 18a (which may also be a distal end 18D of the bait spike 18) and the proximal end 18bP of the consumption-indicating portion 18b (which may also be a proximal end 18P of the bait spike 18).
The proximal end 18bP of the consumption-indicating portion 18b generally defines a button member 94. A proximal end 82dP of the fourth stem portion 82d of the consumption-indicating portion 18b is connected to a distal end 94D the button member 94. The fourth stem portion 82d of the consumption-indicating portion 18b is also defined by a distal end 82dD. The distal end 82dD of the fourth stem portion 82d of the consumption-indicating portion 18b is connected to a proximal end 82cP of the third stem portion 82c of the consumption-indicating portion 18b. A distal end 82cD of the third stem portion 82c of the consumption-indicating portion 18b is connected to a proximal end 82bP of the second stem portion 82c of the consumption-indicating portion 18b.
The third stem portion 82c of the consumption-indicating portion 18b is defined by a tool interface portion 96. The tool interface portion 96 may also define a tool insertion passage 98 extending radially through the tool interface portion 96.
With reference to FIG. 2A, after the bait spike 18 is formed by non-removably-joining the bait-retaining portion 18a to the consumption-indicating portion 18b, the distal end 18aO of the bait-retaining portion 18a is inserted into a proximal opening (not shown) of the bait spike retainer 20 that permits access to the passage 70 formed by the bait spike retainer 20 according to the direction of arrow X18. Once arranged within the passage 70 formed by the bait spike retainer 20, the distal end 18aD of the bait-retaining portion 18a is then advanced through the passage 70 from the proximal end 20P of the bait spike retainer 20 to the distal end 20D of the bait spike retainer 20 until the distal end 18aD of the bait-retaining portion 18a extends out of a distal opening 102 (see, e.g., FIGS. 2A-2B, 10A) of the bait spike retainer 20 located at the distal end 20D of the bait spike retainer 20. With reference to FIGS. 10A, 10A′ and 10A″, the bait spike 18 is advanced within the passage 70 according to the direction of arrow X18 until: (1) as seen in FIG. 10A″, the distal end 82cD of the third stem portion 82c of the consumption-indicating portion 18b that defines the tool interface portion 96 engages a first shoulder surface 104 of the inner surface 68 that defines the passage 70 extending through the bait spike retainer 20 and (2) as seen in FIG. 10A′, a shoulder surface 18bD-S of the distal end 18bD of the consumption-indicating portion 18b engages a second shoulder surface 106 of the inner surface 68 that defines the passage 70 extending through the bait spike retainer 20. Upon the consumption-indicating portion 18b engaging the first shoulder surface 104 and the second shoulder surfaced 106 of the inner surface 68 defining the passage 70 extending through the bait spike retainer 20 as described above, a portion L18a-1P (see, e.g. FIGS. 2B, 10A′) of the first portion L18a-1 of the length L18a of the bait-retaining portion 18a of the bait spike 18 extends out of the passage 70 and beyond distal opening 102 of the bait spike retainer 20 located at the distal end 20D of the bait spike retainer 20.
As described above, the bait spike 18 is arranged in free-floating orientation with the passage 70 of the bait spike retainer 20. Therefore, during the course of joining the bait B to the bait-retaining portion 18a of the bait spike 18 according to the direction of the arrow XB as seen in FIG. 2B, a user may apply an opposing force F (see, e.g., FIGS. 2B and 10A) to the proximal end 94P of the button member 94 in order to maintain the distal end 82cD of the third stem portion 82c of the consumption-indicating portion 18b adjacent the first shoulder surface 104 of the inner surface 68 that defines the passage 70 extending through the bait spike retainer 20.
With reference to FIG. 2C, after the bait B has been joined to the bait-retaining portion 18a of the bait spike 18, the bait B secures the bait spike 18 to the bait spike retainer 20. When the bait B is secured to the bait spike 18, the user may no longer need to apply the force F, as the bait B is larger than the distal opening 102 of the bait spike retainer 20, and, therefore, the bait B rests upon the distal end 20D of the bait spike retainer 20.
Thereafter, as seen in FIG. 2D, the second bait station subassembly 24 (including the bait B secured to the bait-retaining portion 18a of the bait spike 18 and resting upon the distal end 20D of the bait spike retainer 20) is said to be prepared for axial insertion X24 into the axial passage 28 of the housing 12. With reference to FIGS. 2E and 10A, after axially inserting X24 the second bait station subassembly 24 into the axial passage 28 of the housing 12, a portion of the bait spike retainer 20 does not extend beyond the distal end 26D of the substantially cylindrical body 26 of the housing 12 by way of the distal opening 36 (i.e., a portion of the bait spike retainer 20 is contained within the axial passage 28 of the housing 12). Insertion X24 of the second bait station subassembly 24 into the axial passage 28 ceases when the distal shoulder surface 20D (see also, e.g., FIG. 2C) of the bait spike retainer 20 engages or is disposed adjacent the proximal surface 32P (see also, e.g., FIG. 10A) of the inwardly-extending lip portion 32 of the housing 12.
With reference to FIGS. 2D-2E, before or during the course of axially inserting X24 the second bait station subassembly 24 into the axial passage 28 of the housing 12, one or more axial retainer fingers 108 extending from the distal shoulder surface 20D of the bait spike retainer 20 are axially aligned with corresponding slots 52 formed by the inwardly-extending lip portion 32 of the housing 12. As seen in FIGS. 2E and 11A, the one or more axial retainer fingers 108 are sized for axial insertion through, and may be inserted through, the slots 52 formed by the inwardly-extending lip portion 32 of the housing 12. After the distal shoulder surface 20D of the bait spike retainer 20 engages or is disposed adjacent the proximal surface 32P of the inwardly-extending lip portion 32 of the housing 12, the one or more axial retainer fingers 108 are said to be fully passed through the slots 52 formed by the inwardly-extending lip portion 32 of the housing 12. Thereafter, as seen in FIGS. 2E and 11A, the second bait station subassembly 24 may be rotated R24 relative to the housing 12.
As seen in FIGS. 2E-2F and 11A-11B, rotation R24 of the second bait station subassembly 24 relative to the housing 12 results in spatial displacement of the one or more axial retainer fingers 108 relative to the slots 52 formed by the inwardly-extending lip portion 32 of the housing 12. As seen in FIGS. 11A-11B, the one or more axial retainer fingers 108 may be defined by a substantially L-shaped body 110 having a terminal end 112. The terminal end 112 of the substantially L-shaped body 110 may be defined by an inner surface 112I and an outer surface 112O. The inner surface 112I may be defined by a projection 114.
After rotation R24 of the second bait station subassembly 24 relative to the housing 12, the projection 114 of the terminal end 112 of the substantially L-shaped body 110 of each axial retainer finger 108 may be temporality flexed upwardly and then subsequently slides past the projection 54 formed by the distal surface 32D of the inwardly-extending lip portion 32 of the housing 12 that is arranged proximate the corresponding slot 52. After each axial retainer finger 108 is slid past the each corresponding projection 54 of the inwardly-extending lip portion 32 of the housing 12, each projection 54 of the inwardly-extending lip portion 32 of the housing 12 may inhibit but not entirely prevent rotation R24′ (see, e.g., FIGS. 2F and 11B) in a direction opposite the arrow R24 of FIGS. 2E and 11A.
With reference to FIG. 2F, after rotation R24 of the second bait station subassembly 24 relative to the housing 12 has been completed such that one or more of the inner surface 112I of the terminal end 112 and the projection 114 of the substantially L-shaped body 110 of the one or more axial retainer fingers 108 is/are disposed adjacent one or more of the corresponding projections 54 and the distal surface 32D of the inwardly-extending lip portion 32 of the housing 12, the second bait station subassembly 24 may be said to be removably-connected to the first bait station subassembly 22. Thereafter, as seen in FIG. 2F, the lid member 16 may be rotated R16 relative to the housing 12 according to the direction of arrow R16 for selectively-retaining the lid member 16 to the housing 12 in a closed orientation (as seen in, e.g., FIG. 2G).
As seen in FIG. 2A, the lid member 16 may define a passage 116 extending through a thickness T16 of the lid member 16. The thickness T16 of the lid member 16 extends between an outer surface 16O of the lid member 16 and an inner surface 16I of the lid member 16.
With reference to FIGS. 2G, 10A and 12A, after rotating R16 the lid member 16 relative to the housing 12, the passage 116 extending through the thickness T16 of the lid member 16 is axially-aligned with the button member 94 defined by the proximal end 18bP of the consumption-indicating portion 18b of the bait spike 18. Furthermore, after rotating R16 the lid member 16 relative to the housing 12, the button member 94 may be disposed within the passage 116 such that the button member 94 may be substantially aligned with thickness T16 of the lid member 16. Yet even further, the button member 94 may be defined by a diameter D94 that is about the same as but slightly smaller than a diameter D116 of the passage 116 thereby substantially closing-out the passage 116 of the lid member 16.
Referring to FIGS. 12A-12E, 13A-13C and 14A-14C, a method for operating the bait station 10 when the bait station 10 is secured to the panel P and loaded with bait B is now described. As seen in FIG. 12A, the bait station 10 is loaded with bait B and secured to the panel P as described above at FIGS. 2A-2G. Thereafter, as seen in FIG. 12B, the rodent R (referring to FIGS. 3A-3B) has removed or consumed the bait B. As a result of the rodent R removing or consuming the bait B, the bait spike 18, which is free-floatingly-disposed within the bait spike retainer 20, may fall or drop downwardly with the assistance of gravity from an “up orientation” (see, e.g., FIGS. 3A, 10A, 12A) to a “down orientation” (seem e.g. FIGS. 3B, 10B, 12B) in order to provide a visible indication to the user U (who is located opposite the A-surface P1 of the panel P as seen in, for example, FIGS. 12A-12D) that the bait B (that is located opposite the B-surface P2 of the panel P as seen in, for example, FIGS. 3A, 10A, 12A) has been depleted (as seen in, for example, FIGS. 3B, 10B, 12B).
With reference to FIGS. 10B and 12B, because the diameter D94 of the button member 94 is about the same as but slightly smaller than the diameter D116 of the passage 116 formed by the lid member 16, the fourth stem portion 82d extending along the fourth portion L18b-4 of the length L18b of the consumption-indicating portion 18b (which includes the button member 94) is permitted to pass through the passage 116 (according to the direction of arrow X18′) formed by the lid member 16 for arranging the bait spike 18 relative to the bait spike retainer 20 in the “down orientation.” Furthermore, as seen in FIG. 10B, as a result of the bait spike 18 being arranged in the “down orientation,” the proximal end 82cP of the third stem portion 82c of the consumption-indicating portion 18b is disposed adjacent the inner surface 16I of the lid member 16 for preventing the bait spike 18 from being fully evacuated from the passage 70 of the bait spike retainer 20.
Referring to FIG. 12C, if the user U decides to service the bait station 10 in order, to, for example, re-load bait B upon the bait spike 18, the user U urges the exposed the fourth stem portion 82d back into the housing 12 by pushing the proximal end 18bP of the consumption-indicating portion 18b/the button member 94 upwardly according to the direction of the arrow X18 such that the bait spike 18 is manually arranged back to the “up orientation” relative to the bait spike retainer 20. Then, as seen in FIG. 12D, while the bait spike 18 is manually arranged back to the “up orientation” relative to the bait spike retainer 20, the user may user his/her other hand to grasp the snap-fit flange 16F of the lid member 16 in order to disconnect the snap-fit flange 16F from the snap-fit channel 46 and rotate R16′ the lid member 16 relative to the housing 12 for transitioning the lid member 16 from the closed orientation (as seen in FIG. 12D) to an open orientation (as seen in FIG. 12E). Once the lid member 16 is arranged in the open orientation as seen in FIG. 12E, the bait spike 18 (without the bait B secured thereto) is permitted to fall with the assistance of gravity away from the bait spike retainer 20 as a result of the inner surface 16I of the lid member 16 to longer being arranged adjacent and supporting the proximal end 82cP of the third stem portion 82c of the consumption-indicating portion 18b of the bait spike 18.
Referring to FIG. 13A, with or without the bait spike 18 removed from the bait spike retainer 20, the bait spike retainer 20 may be disconnected from the housing 12. In an example, the bait spike retainer 20 may be rotated R24′ (see, e.g., FIGS. 2F and 11B) as described above such that each axial retainer finger 108 is slid past the each corresponding projection 54 of the inwardly-extending lip portion 32 of the housing 12 until each axial retainer finger 108 is axially aligned with a corresponding slot 52 formed by the inwardly-extending lip portion 32 of the housing 12. Thereafter, the bait spike retainer 20 may by axially disconnected from the housing 12 and the bait spike retainer 20 may be removed from the axial passage 28 of the housing 12. Once the bait spike retainer 20 is removed from the housing 12, the second bait station subassembly 24 may be re-baited as shown and described at FIGS. 2A-2C. Once the second bait station subassembly 24 is re-baited, the second bait station subassembly 24 is re-connected to the housing 12 as shown and described at FIGS. 2D-2G.
Rotation R24′ of the bait spike retainer 20 relative to the housing 12 for disconnected the bait spike retainer 20 from the housing 12 may be carried out in any desirable manner. In an example, a user may grasp the bait spike retainer 20 by hand and rotate R24′ the bait spike retainer 20 relative to the housing 12 in a substantially similar when one would change a light bulb relative to a light bulb socket. In another example, in the event that a user is unable to reach the bait spike retainer 20 or prefers to not touch the bait spike retainer 20, as seen in FIGS. 13A-13C, 14A-14C and 15, a user may utilize a tool 118 that is sized for engagement with the bait spike retainer 20.
In an example, the tool 118 may have an L-shaped body having an axial portion 118A and a radial portion 118R extending away from the axial portion 118A. In an example, as seen in FIGS. 13A-13C and 14A-14C, one or more of the radial portion 118R and the axial portion 118A of the tool 118 may be sized for insertion between a pair of radial members 120 that extend across the passage 70 of the bait spike retainer 20. In another example, as seen in FIG. 15, the radial portion 118R of the tool 118 may be sized for arrangement between a distal tool surface 120D of the bait spike retainer 20 that at least partially defines the passage 70 of the bait spike retainer 20 and a proximal tool surface 120P of the bait spike retainer 20 that at least partially defines the passage 70 of the bait spike retainer 20. Once the tool 118 is removably-coupled to the bait spike retainer 20 as described above, the user may impart a rotational force R24′ to the tool 118 for causing the bait spike retainer 20 to rotate relative to the housing 12.
It is contemplated that in some situations a user may be uncertain of and wish to inspect the state of consumption of the bait B (i.e., the fourth stem portion 82d of the consumption-indicating portion 18b of the bait spike 18 has not yet passed through the passage 116 formed by the lid member 16 for arranging the bait spike 18 relative to the bait spike retainer 20 in the “down orientation” thereby indicating to a user that the bait station 10 still supports at least some bait B that is preventing the bait spike 18 to “drop” relative to the bait spike retainer 20). Therefore, as seen more clearly in FIGS. 14A-14C and 15, when the bait B secures the bait spike 18 to the bait spike retainer 20, as described above, the third stem portion 82c of the consumption-indicating portion 18b defines a tool interface portion 96 having a tool insertion passage 98. Therefore, as seen in FIGS. 14A-14C, in the event that the bait spike 18 is still secured to the bait spike retainer 20 by the bait B, the tool insertion passage 98 is sized for receiving the radial portion 118R of the tool 118 such that the user is permitted to not only arrange the radial portion 118R between the pair of radial members 120 extending across the passage 70 of the bait spike retainer 20 but also through the passage 98 formed by the third stem portion 82c of the consumption-indicating portion 18b of the bait spike 18. Therefore, upon the user imparting a rotational force R24′ to the tool 118, the rotational force R24′ may be translated to one or more of the bait spike 18 and the bait spike retainer 20.
Although rotation R24′ of the bait spike retainer 20 relative to the housing 12 for disconnecting the bait spike retainer 20 from the housing 12 by hand or with the tool 118 (with or without the bait spike 18 arranged within the bait spike retainer 20) is described above, rotation R24 in the direction opposite the direction of the arrow R24′ may be carried out for connecting the bait spike retainer 20 to the housing 12. In an example, the user U may grasp the bait spike retainer 20 by hand and rotate R24 the bait spike retainer 20 relative the housing 12 (in a substantially similar when one would change a light bulb relative to a light bulb socket) in order to connect the bait spike retainer 20 to the housing 12. In another example the user U may removably-couple the tool 118 to one or both of the bait spike retainer 20 (by arranging the tool 118 near, next to or between one of the pair of radial members 120, the distal tool surface 120D and the proximal tool surface 120P of the bait spike retainer 20) and the bait spike 18 (by arranging the tool 118 within the tool insertion passage 98 of the bait spike 18) as described above and rotate R24 the bait spike retainer 20 relative the housing 12 in order to connect the bait spike retainer 20 to the housing 12.
A number of implementations have been described. Nevertheless, it will be understood that various modifications may be made without departing from the spirit and scope of the disclosure. Accordingly, other implementations are within the scope of the following claims. For example, the actions recited in the claims can be performed in a different order and still achieve desirable results.
Holland, James B., Benton, Michael, Rivenbark, Mitchell
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